Главные вкладки
А.В. Шляхтина
1. S.N.Savvin, A.V Shlyakhtina, D.A. Belov; J.C. Ruiz-Morales, L.G. Shcherbakova, P. Nunez. Stability of (Ln0.8Ca0.1Ln′0.1)2Ti2O7-δ (Ln=Dy, Yb; Ln′=Ce, Tb) and (Tb0.9Ca0.1)2Ti2O7-δ pyrochlores under redox conditions. Solid State Ionics, (2012), 225, 457-463.
2. А.В. Шляхтина, Д.А. Белов, С.Ю.Стефанович, О.К. Карягина, Л.Г. Щербакова. Кислород-ионная проводимость твердых растворов (Yb1-xTbxCa0.1)2Ti2O7-δ (х=0.1, 0.2, 0.3, 0.4). Неорганические материалы. (2012), 48, №11, с. 1259-1263.
3. A.V. Shlyakhtina, L.G. Shcherbakova. New Solid Electrolytes of the Pyrochlore Family. Russian Journal of Electrochemistry. (2012), 48, 1-25.
4. A.V. Shlyakhtina, D.A Belov, S.Yu.Stefanovich, E.A.Nesterova, Karyagina, O.K.; Shcherbakova, L.G. Optimization of synthesis conditions for rare-earth titanate based oxygen ion conductors. Solid State Ionics. (2013), 230, 52-58.
5. А.В. Шляхтина. Морфотропия, изоморфизм и полиморфизм сложных оксидов на основе Ln2M2O7 (Ln= La-Lu, Y, Sc; M= Ti, Zr. Hf, Sn). Кристаллография. 58 (4) (2013) 545-560.
6.P. Fedtke, A.V. Shlyakhtina, A. Busch, T. Barfels, M. Wienecke, L.G. Shcherbakova
Effect of oxygen partial pressure on the bulk and grain-boundary components of conductivity in (Yb1-xCax)2Ti 2O7-δ (x = 0, 0.05, 0.1) solid solutions. Materials Research Bulletin (2013), 48 №7, 2707-2711.
7. L.G. Shcherbakova, E.A. Nesterova, A.V. Shlyakhtina. Accommodation of niobium and cerium variable valence cations in the crystal lattice of the Ln23+ Ti24+O7 (Ln = Dy, Yb) pyrochlores. Inorganic Materials. (2013), 49, № 10, Pages 1023-1030.
8. A.V. Shlyakhtina, D.A. Belov , A.V. Knotko, I.V. Kolbanev, A.N. Streletskii, L.G. Shcherbakova. “Interstitial oxide ion conduction in (Sm2-xZrx)Zr2O7+δ”. Solid State Ionics 262 (2014) 543-547.
9. А. В. Шляхтина, Д. A. Белов, А. В. Кнотько, И. В. Колбанев, A. Н. Стрелецкий, О. К. Карягина, Л. Г. Щербакова. “Межузельная и вакансионная кислород-ионная проводимость в симметричных твердых растворах “Ln2±xZr2± xO7± x/2 (Ln – Nd, Sm)”. Неорганические материалы 50 (10) (2014) 1-16.
10. L.G. Shcherbakova, J.C.C. Abrantes, D.A. Belov, E.A. Nesterova, O.K. Karyagina, A.V. Shlyakhtina. “ Effect of Nb substitution for Ti on the electrical properties of Yb2Ti2O7-based oxygen ion conductors”. Solid State Ionics 261 (2014) 131-140.
11. S.N. Savvin, A.V. Shlyakhtina, I.V. Kolbanev, A.V. Knotko, D.A. Belov, L.G. Shcherbakova, P.Nunez. “ Zr-doped samarium molybdates – potential mixed electron-proton conductors”. Solid State Ionics 262 (2014) 713-718.
12. A.V. Shlyakhtina, D.A. Belov, A.V. Knotko, M. Avdeev, I.V. Kolbanev, G.A. Vorobieva, O.K. Karyagina, L.G. Shcherbakova. “ Oxide ion transport in (Nd2-xZrx)Zr2O7+δ electrolytes by an interstitial mechanism”. J. of Alloys and Compounds 603 (2014) 274-281.
13. A.V. Shlyakhtina, D.A. Belov, K.S. Pigalskiy, A.N. Shchegolikhin, I.V. Kolbanev, O.K. Karyagina. “ Synthesis, properties and phase transitions of pyrochlore- and fluorite-like Ln2RMO7 (Ln= Sm, Ho; R= Lu, Sc; M = Nb, Ta). Materials Research Bulletin 49 (1) (2014) 625-632.
14. D.A. Belov, A.V. Shlyakhtina, J.C.C. Abrantes, S.A. Chernyak, G.A. Gasymova, O.K. Karyagina, L.G. Shcherbakova. Electrochemical behavior of the pyrochlore- and fluorite-like solid solutions in the Pr2O3-ZrO2 system. Part I. Solid State Ionics 271 (2015) 79-85.
15. S.N. Savvin, A.V. Shlyakhtina, A.B. Borunova, L.G. Shcherbakova, J.C. Ruiz-Morales, P. Nuñez. Crystal structure and proton conductivity of some Zr-doped rare-earth molybdates. Solid State Ionics 271 (2015) 91-97.
16. A.V. Shlyakhtina, S.N. Savvin, A.V. Knotko, L.G. Shcherbakova, P. Nunez. Electrical conductivity of Ln6–xZrxMoO12+δ (Ln = La, Nd, Sm; x = 0.2, 0.6) ceramics during thermal cycling. Inorganic Materials 52(10) (2016) 1055-1062.
17. A.V. Shlyakhtina, J.C.C. Abrantes, E. Gomes, A.N. Shchegolikhin, G.A. Vorobieva, K.I. Maslakov, L.G. Shcherbakova. Effect of Pr3+/Pr4+ ratio on the oxygen ion transport and thermomechanical properties of the pyrochlore and fluorite phases in the ZrO2 Pr2O3 system. International Journal of Hydrogen Energy
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